Add to ORKGWe present a general strategy for designing proteins to recognize DNA sequences and illustrate this with an example based on the "Y-shaped scissors grip" model for leucine-zipper gene-regulatory proteins. The designed protein is formed from two copies, in tandem, of the basic (DNA binding) region of v-Jun. These copies are coupled through a tripeptide to yield a "dimer" expected to recognize the sequence TCATCGATGA (the v-Jun-v-Jun homodimer recognizes ATGACTCAT). We synthesized the protein and oligonucleotides containing the proposed binding sites and used gel-retardation assays and DNase I footprinting to establish that the dimer binds specifically to the DNA sequence TCATCGATGA but does not bind to the wild-type DNA sequences, nor to oli...
AbstractBackground: Several strategies have been reported for the design and selection of novel DNA-...
The design of synthetic sequence-specific DNA-binding molecules has advanced in recent years due, in...
Identifying the interactions that exist in the leucine zipper DNA binding proteins are crucial for t...
We present a general strategy for designing proteins to recognize DNA sequences and illustrate this ...
Using protein stitchery with appropriate attachment of cysteines linking to either C or N termini of...
One of the strategies used by nature to regulate gene expression relies on the stimuli-controlled co...
AbstractWe developed a rational scheme for designing DNA binding proteins. The scheme was applied fo...
Abstract: We hypothesize that we can exploit what Nature has already evolved by manipu-lating the α-...
This thesis explores how basic region/leucine zipper (bZIP) transcription factors target gene regula...
It is generally believed that leucine zipper regulatory proteins for DNA transcription recognize the...
Selective dimerization of the basic-region leucine-zipper (bZIP) transcription factors presents a vi...
The goal of this work was to study the highly specific nature of protein-DNA recognition, using a "...
AbstractAttachment of a slightly modified basic region of a bZIP protein (GCN4) to a distamycin-rela...
We designed a peptide to recognize a new 16-base-pair site (about 1.5 turns) of DNA by stitching tog...
AbstractAn important goal in protein engineering is to control associations between designed protein...
AbstractBackground: Several strategies have been reported for the design and selection of novel DNA-...
The design of synthetic sequence-specific DNA-binding molecules has advanced in recent years due, in...
Identifying the interactions that exist in the leucine zipper DNA binding proteins are crucial for t...
We present a general strategy for designing proteins to recognize DNA sequences and illustrate this ...
Using protein stitchery with appropriate attachment of cysteines linking to either C or N termini of...
One of the strategies used by nature to regulate gene expression relies on the stimuli-controlled co...
AbstractWe developed a rational scheme for designing DNA binding proteins. The scheme was applied fo...
Abstract: We hypothesize that we can exploit what Nature has already evolved by manipu-lating the α-...
This thesis explores how basic region/leucine zipper (bZIP) transcription factors target gene regula...
It is generally believed that leucine zipper regulatory proteins for DNA transcription recognize the...
Selective dimerization of the basic-region leucine-zipper (bZIP) transcription factors presents a vi...
The goal of this work was to study the highly specific nature of protein-DNA recognition, using a "...
AbstractAttachment of a slightly modified basic region of a bZIP protein (GCN4) to a distamycin-rela...
We designed a peptide to recognize a new 16-base-pair site (about 1.5 turns) of DNA by stitching tog...
AbstractAn important goal in protein engineering is to control associations between designed protein...
AbstractBackground: Several strategies have been reported for the design and selection of novel DNA-...
The design of synthetic sequence-specific DNA-binding molecules has advanced in recent years due, in...
Identifying the interactions that exist in the leucine zipper DNA binding proteins are crucial for t...